JPWO2021079966A5 - Analyzer and program - Google Patents

Description

The analyzer 2000 generates an Ishikawa diagram 10 showing the relationship between the objective variable and the plurality of explanatory variables. Here, the Ishikawa diagram is a diagram that visually shows the relationship between the characteristics and the plurality of factors. In the characteristic factor diagram 10, the characteristic corresponds to the objective variable and the factor corresponds to the explanatory variable. Here, the characteristic may be the objective variable itself or an item related to the objective variable. Items related to the objective variable are, for example, items or events of interest that are common to the objective variable. For example, there are cases where the objective variable represents "presence or absence of product defects" and the characteristics represent "product defects". Similarly, the factor may be the explanatory variable itself or an item related to the explanatory variable.

<Example of functional configuration>
FIG. 2 is a diagram illustrating the functional configuration of the analyzer 2000 of the first embodiment. The analyzer 2000 has an acquisition unit 2020 and a generation unit 2040. The acquisition unit 2020 acquires the relational information 50 for the source data 40. The generation unit 2040 uses the relational information 50 to generate the characteristic factor diagram 10. Here, the generation unit 2040 determines the display mode of each factor display 16 in the characteristic factor diagram 10 or the presence / absence of the display of the factor display 16 based on the degree of influence of the explanatory variable corresponding to the factor display 16.

For example, the generation unit 2040 generates the characteristic display 12, the group display 14, and the factor display 16, respectively, using the identification information of the objective variable, the group identification information indicated by the group definition information, and the identification information of the explanatory variables. Further, the generation unit 2040 determines the positional relationship between the group display 14 and the factor display 16 using the group definition information. Then, the generation unit 2040 generates the characteristic factor diagram 10 by connecting the generated displays with the trunk 11, the large branch 13, and the twig 15 based on the determined positional relationship.

Here, if the presence or absence of the factor display 16 is determined by the method described above, there may be a group display 14 in which no factor display 16 is included. Therefore, the generation unit 2040 may determine the display mode of the group display 14 depending on whether or not the factor display 16 is included. By doing so, the group display 14 including the factor display 16 is emphasized more than the group display 14 not including the factor display 16. Examples of the method of making the display mode of the group display 14 different include a method of making the background, the frame, and the like different, as in the method of making the display mode of the factor display 16 different. Further, the generation unit 2040 may not display the group display 14 that does not include the factor display 16. In other words, the generation unit 2040 may display only the group display 14 including at least one factor display 16.

<Output of graph 30 : S208 >
The generation unit 2040 outputs the generated graph 30. The output method of the graph 30 is the same as the output method of the characteristic factor FIG. Further, the generation unit 2040 may output the characteristic factor diagram 10 together with the graph 30. For example, the generation unit 2040 generates and outputs screen data (for example, a Web page) including both the characteristic factor diagram 10 and the graph 30.

Some or all of the above embodiments may also be described, but not limited to:
Hereinafter, an example of the reference form will be added.
1. 1. An acquisition unit that acquires relational information indicating the degree of influence of each of multiple explanatory variables on the objective variable,
It has a generation unit that generates a characteristic factor diagram showing the relationship between the objective variable and the explanatory variable using the relationship information.
The generator is an analyzer that determines the display mode of the display for each explanatory variable in the characteristic factor diagram or the presence or absence of the display based on the degree of influence of the explanatory variable.
2. 2. The relationship between the objective variable and the plurality of explanatory variables is represented by one or more linear models.
The degree of influence of the explanatory variables indicated by the relational information is represented by a coefficient multiplied by the explanatory variables in the linear model. The analyzer described in.
3. 3. The relational information indicates a plurality of influence degrees of the explanatory variables for each explanatory variable.
The generation unit calculates statistical values of a plurality of influence degrees indicated by the relational information for the explanatory variables for each explanatory variable, treats the calculated statistical values as the influence degree of the explanatory variables, and treats the calculated statistical values as the influence degree of the explanatory variables. Generate a diagram 1. Or 2. The analyzer described in.
4. The generator is
Whether the display mode is different between the display related to the explanatory variables whose influence degree is equal to or higher than the threshold value and the display related to other explanatory variables.
Whether the display mode is different between the display for the explanatory variables whose influence degree is within the predetermined order and the display for the other explanatory variables.
For each group of the explanatory variables, the display mode is different between the display of the explanatory variables having the influence degree within a predetermined order among the explanatory variables belonging to the group and the display of the other explanatory variables. 1. 1. 3 The analyzer according to any one of.
5. The generator is
Whether to include only the display related to the explanatory variables whose influence degree is equal to or higher than the threshold value in the characteristic factor diagram.
Whether to include only the display related to the explanatory variables whose influence degree is within the predetermined order in the characteristic factor diagram.
For each group of the explanatory variables, only the display relating to the explanatory variables whose influence degree is within a predetermined order among the explanatory variables belonging to the group is included in the characteristic factor diagram. 3 The analyzer according to any one of.
6. The generator is
Output the characteristic factor diagram and
When the explanatory variable is specified in the output characteristic factor diagram, data indicating a plurality of values of the specified explanatory variable is acquired.
Generate a graph using the data. 5 The analyzer according to any one of 5.
7. The generator is
Acquires time series data for the specified explanatory variable and
As the graph, a first graph showing the time change of the value of the explanatory variable or a second graph showing the result of statistical processing of the time series data is generated. The analyzer described in.
8. 6. The generation unit generates screen data including both the first graph and the second graph. The analyzer described in.
9. 6. The generator includes the data of the objective variable in the graph. 8 The analyzer according to any one of 8.
10. A control method performed by a computer
An acquisition step to acquire relational information indicating the degree of influence of each of multiple explanatory variables on the objective variable, and
It has a generation step of generating a characteristic factor diagram showing the relationship between the objective variable and the explanatory variable using the relationship information.
A control method in which, in the generation step, the display mode of the display for each explanatory variable in the characteristic factor diagram or the presence or absence of the display is determined based on the degree of influence of the explanatory variable.
11. The relationship between the objective variable and the plurality of explanatory variables is represented by one or more linear models.
The degree of influence of the explanatory variable indicated by the relational information is represented by a coefficient multiplied by the explanatory variable in the linear model. The control method described in.
12. The relational information indicates a plurality of influence degrees of the explanatory variables for each explanatory variable.
In the generation step, for each of the explanatory variables, statistical values of a plurality of influence degrees indicated by the relational information are calculated for the explanatory variable, and the calculated statistical values are treated as the influence degree of the explanatory variable, and the characteristic factor. Generate a diagram 10. Or 11. The control method described in.
13. In the generation step
Whether the display mode is different between the display related to the explanatory variables whose influence degree is equal to or higher than the threshold value and the display related to other explanatory variables.
Whether the display mode is different between the display for the explanatory variables whose influence degree is within the predetermined order and the display for the other explanatory variables.
For each group of the explanatory variables, the display mode is different between the display of the explanatory variables having the influence degree within a predetermined order among the explanatory variables belonging to the group and the display of the other explanatory variables. 10. 12. The control method according to any one of 12.
14. In the generation step
Whether to include only the display related to the explanatory variables whose influence degree is equal to or higher than the threshold value in the characteristic factor diagram.
Whether to include only the display related to the explanatory variables whose influence degree is within the predetermined order in the characteristic factor diagram.
For each group of the explanatory variables, only the display relating to the explanatory variables whose influence degree is within a predetermined order among the explanatory variables belonging to the group is included in the characteristic factor diagram. 12. The control method according to any one of 12.
15. In the generation step
Output the characteristic factor diagram and
When the explanatory variable is specified in the output characteristic factor diagram, data indicating a plurality of values of the specified explanatory variable is acquired.
Generate a graph using the data. 14 to 14 The control method according to any one.
16. In the generation step
Acquires time series data for the specified explanatory variable and
As the graph, a first graph showing the time change of the value of the explanatory variable or a second graph showing the result of statistical processing of the time series data is generated. The control method described in.
17. 16. In the generation step, screen data including both the first graph and the second graph is generated. The control method described in.
18. In the generation step, the data of the objective variable is included in the graph. 17. The control method according to any one of 17.
19. 10. A program that causes a computer to execute the control method described in any one of 18 to 18.

Claims (10)

An acquisition unit that acquires relational information indicating the degree of influence of each of multiple explanatory variables on the objective variable,
It has a generation unit that generates a characteristic factor diagram showing the relationship between the objective variable and the explanatory variable using the relationship information.
The generator is an analyzer that determines the display mode of the display for each explanatory variable in the characteristic factor diagram or the presence or absence of the display based on the degree of influence of the explanatory variable. The relationship between the objective variable and the plurality of explanatory variables is represented by one or more linear models.
The analyzer according to claim 1, wherein the degree of influence of the explanatory variables indicated by the relational information is represented by a coefficient multiplied by the explanatory variables in the linear model. The relational information indicates a plurality of influence degrees of the explanatory variables for each explanatory variable.
The generation unit calculates statistical values of a plurality of influence degrees indicated by the relational information for the explanatory variables for each explanatory variable, treats the calculated statistical values as the influence degree of the explanatory variables, and treats the calculated statistical values as the influence degree of the explanatory variables. The analyzer according to claim 1 or 2, which produces a diagram. The generator is
Whether the display mode is different between the display related to the explanatory variables whose influence degree is equal to or higher than the threshold value and the display related to other explanatory variables.
Whether the display mode is different between the display for the explanatory variables whose influence degree is within the predetermined order and the display for the other explanatory variables.
For each group of the explanatory variables, the display mode is different between the display of the explanatory variables having the influence degree within a predetermined order among the explanatory variables belonging to the group and the display of the other explanatory variables. The analyzer according to any one of claims 1 to 3. The generator is
Whether to include only the display related to the explanatory variables whose influence degree is equal to or higher than the threshold value in the characteristic factor diagram.
Whether to include only the display related to the explanatory variables whose influence degree is within the predetermined order in the characteristic factor diagram.
In any one of claims 1 to 3, for each group of the explanatory variables, only the display relating to the explanatory variables whose degree of influence is within a predetermined order among the explanatory variables belonging to the group is included in the characteristic factor diagram. The analyzer described. The generator is
Output the characteristic factor diagram and
When the explanatory variable is specified in the output characteristic factor diagram, data indicating a plurality of values of the specified explanatory variable is acquired.
The analyzer according to any one of claims 1 to 5, which generates a graph using the data. The generator is
Acquires time series data for the specified explanatory variable and
The analyzer according to claim 6, wherein as the graph, a first graph showing the time change of the value of the explanatory variable or a second graph showing the result of statistical processing of the time series data is generated. The analyzer according to claim 7, wherein the generation unit generates screen data including both the first graph and the second graph. The analyzer according to any one of claims 6 to 8, wherein the generation unit includes data of the objective variable in the graph. Computer ,
An acquisition method for acquiring relational information indicating the degree of influence of each of a plurality of explanatory variables on an objective variable.
It is a means for generating a characteristic factor diagram showing the relationship between the objective variable and the explanatory variable using the relational information, and explains the display mode of the display for each explanatory variable in the characteristic factor diagram or the presence or absence of the display thereof. A generation means, which is determined based on the degree of influence of a variable.
A program that functions as .

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